Finite extension of accreting nonlinear elastic solid circular cylinders

Yavari, Arash; Safa, Yasser; Fallah, Arash Soleiman

doi:10.1007/s00161-023-01208-w

Cited by 3 publications

(1 citation statement)

References 45 publications

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“…It was observed that the six known families of universal deformations are invariant under specific Lie subgroups of the special Euclidean group. There are also some recent studies of universal deformations and eigenstrains in accreting bodies [65][66][67]. There have also been studies of universal deformations in liquid crystal elastomers [68,69].…”

Section: Introductionmentioning

confidence: 99%

Universal deformations and inhomogeneities in isotropic Cauchy elasticity

Yavari

2024

Proc. R. Soc. A.

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For a given class of materials, universal deformations are those deformations that can be maintained in the absence of body forces and by applying solely boundary tractions. For inhomogeneous bodies, in addition to the universality constraints that determine the universal deformations, there are extra constraints on the form of the material inhomogeneities—universal inhomogeneity constraints. Those inhomogeneities compatible with the universal inhomogeneity constraints are called universal inhomogeneities. In a Cauchy elastic solid, stress at a given point and at an instance of time is a function of strain at that point and that exact moment in time, without any dependence on prior history. A Cauchy elastic solid does not necessarily have an energy function, i.e. Cauchy elastic solids are, in general, non-hyperelastic (or non-Green elastic). In this paper, we characterize universal deformations in both compressible and incompressible inhomogeneous isotropic Cauchy elasticity. As Cauchy elasticity includes hyperelasticity, one expects the universal deformations of Cauchy elasticity to be a subset of those of hyperelasticity both in compressible and incompressible cases. It is also expected that the universal inhomogeneity constraints to be more stringent than those of hyperelasticity, and hence, the set of universal inhomogeneities to be smaller than that of hyperelasticity. We prove the somewhat unexpected result that the sets of universal deformations of isotropic Cauchy elasticity and isotropic hyperelasticity are identical, in both the compressible and incompressible cases. We also prove that their corresponding universal inhomogeneities are identical as well.

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Section: Introductionmentioning

confidence: 99%

Universal deformations and inhomogeneities in isotropic Cauchy elasticity

Yavari

2024

Proc. R. Soc. A.

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Controllable deformations in compressible isotropic implicit elasticity

Yavari,

Goriely

2024

Z. Angew. Math. Phys.

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For a given material, controllable deformations are those deformations that can be maintained in the absence of body forces and by applying only boundary tractions. For a given class of materials, universal deformations are those deformations that are controllable for any material within the class. In this paper, we characterize the universal deformations in compressible isotropic implicit elasticity defined by solids whose constitutive equations, in terms of the Cauchy stress $$\varvec{\sigma }$$ σ and the left Cauchy-Green strain $$\textbf{b}$$ b , have the implicit form $$\varvec{\textsf{f}}(\varvec{\sigma },\textbf{b})=\textbf{0}$$ f ( σ , b ) = 0 . We prove that universal deformations are homogeneous. However, an important observation is that, unlike Cauchy (and Green) elasticity, not every homogeneous deformation is constitutively admissible for a given implicit-elastic solid. In other words, the set of universal deformations is material-dependent, yet it remains a subset of homogeneous deformations.

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Accretion Mechanics of Nonlinear Elastic Circular Cylindrical Bars Under Finite Torsion

Yavari

Pradhan

2022

J Elast

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Finite extension of accreting nonlinear elastic solid circular cylinders

Cited by 3 publications

References 45 publications

Universal deformations and inhomogeneities in isotropic Cauchy elasticity

Universal deformations and inhomogeneities in isotropic Cauchy elasticity

Controllable deformations in compressible isotropic implicit elasticity

Accretion Mechanics of Nonlinear Elastic Circular Cylindrical Bars Under Finite Torsion

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